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  • Research on godwit migration involves tracking or following the flight path of the birds. Scientists like Dr Phil Battley and Dr Jesse Conklin from Massey University do this by putting a tracking device on the bird that enables them to follow where the bird goes from a distance. There are several methods of tracking.

    Rights: University of Waikato

    The impact of transmitters

    Dr Phil Battley discusses how both internal and external satellite transmitters might affect godwits.

    Colour banding

    The simplest form of tracking is by colour banding. This involves capturing the bird and attaching a coloured band to its leg to identify it. A band may also include a number, which further helps to identify the bird. Using colour and number bands means people need to look for and identify the birds in various places. This isn’t always possible, so the scientists decided to try satellite tracking.

    Satellite tracking

    This involves a satellite transmitter that sends a radio signal into space where it’s intercepted by a satellite and then transmitted back to Earth. The satellite determines where the bird is, so it can give very accurate information. Two godwits – E3 and E7 – became famous in 2007 when they were tracked by satellite and followed by people on the internet as they made their journeys across the world. Books were written about them including a children’s story called E3 Call Home by Janet Hunt.

    Rights: University of Waikato

    Satellite tagging

    Dr Phil Battley, from Massey University, explains how birds are kept track of through satellite tagging. He describes and compares two ways of doing this – using backpacks with solar panels and internal transmitters.

    However, there are problems with satellite tracking. They require battery power, and there’s a limit as to how long they last for. They are very expensive – one transmitter costs about NZ$5,000. They are heavy – weighing 10–25 grams. Some of these transmitters need to be surgically implanted within the bird. This means capturing the bird and getting a specialist vet to perform surgery to insert the transmitter. Other satellite transmitters work through solar power and are strapped onto the back of the bird. They’re the size of matchboxes and have aerials coming off them. The problem with this transmitter is that, when the bird loses weight through flight, the transmitter has a tendency to fall off.

    Geolocators

    Geolocators are small and light so they are not such a burden for the bird. They weigh about 1.5 g. The main problem with them is that the birds need to be caught again when they return from their journey to get the information off them. Geolocators are sensors that record light and dark. Scientists use this information to work out how long the days and nights are and, from this, work out the latitude and longitude of where the bird might be. Their accuracy is within 200 km.

    Rights: University of Waikato

    Geolocators

    Jesse Conklin, a PhD student at Massey University, describes how geolocators work to keep track of godwits. He explains that they are basically light sensors that record light levels – giving indications of day and night. The scientists use the information to work out the bird’s location.

    Capturing through canon netting

    In order to attach colour and number bands, satellite devices or geolocators, the birds need to be caught. This is often done using a cannon net, which is a long net the researchers hide along the tideline where the birds come to roost. When the birds are in place, cannons fire the net out over the birds. The workers move fast to attach devices or put the birds into containers if they are to have surgery. They handle the birds carefully and for a minimum amount of time.

    Rights: University of Waikato

    Capture and stress

    Massey University PhD student Jesse Conklin explains that any capture of birds will cause stress. He explains the canon technique they use is humane because it happens quickly so the godwits don’t have time to get hurt.

    Sometimes only one bird (or a small group) needs to be caught, for example, the recapture of a bird carrying a geolocator. In that case, it may be possible to catch just a few birds with a smaller net, but more often, many birds have to be caught, even if just a few birds are needed. The ‘extra’ birds can be released quickly. It seems that, if birds have been caught before, they are harder to catch the second time.

    Nature of science

    Certain types of research involve actions that require ethics consent. Capturing godwits and attaching tracking devices (one of which has to be surgically implanted) needs such consent. In this instance, further scientific discoveries need to be weighed against possible harm to some birds.

    Related content

    Research has revealed that godwits make the longest non-stop flight of any known bird. Dr Phil Battley and Dr Jesse Conklin are two scientists who study and track these birds.

    The Ministry of Education’s Connected series article On the move includes teacher support material about the technology used for monitoring migration.

    Activity idea

    In the activity Tracking E7, students explore the incredible flight of a special bird known as E7 to learn about the migratory flight of bar-tailed godwits from New Zealand.

    Useful links

    In Your flight itinerary has changed Dr Jesse Conklin shares his 14-year journey studying Bar-tailed Godwits.

    Every spring, bar-tailed godwits make the 11,000 kilometre journey from Alaska to New Zealand. Phil Battley talks birds and migration.

    Alison Ballance joins a team catching and tagging 45 godwits to find out the sleep secrets of the kuaka, find out more in this RadioNZ Our Changing World programme from March 2024.

    Visit the Global Flyway Network (GFN), a non-profit foundation that seeks to foster and strengthen partnerships between researchers studying the demography and movement ecology of migrant shorebirds across the world.

      Published 13 September 2011, Updated 20 November 2014 Referencing Hub articles
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